US2010095A - Friction shock absorbing mechanism - Google Patents

Description

Aug. 6, 1935. G. Q. LEWIS 2,010,095

FRICTION SHOCK ABSORBING MECHANISM Fi led Sept. 3, 1931 of the spring follower A have shouldered engageme t with the end walls of the slots 2!2l of the shell to limit outward movement of the spring follower. The parts are so proportioned that in the normal position thereof the outer end flanges i9i9 of the sections of the spring follower A are slightly spaced from the main follower-acting member Hi. I V

. The spring follower B, which is disposed at the closed end of the friction shell C, is also composed of three sections. Each section of the spring followerv B has a laterally outwardly extending flange 22 bearing on the corresponding main fol-' lower-acting member 5 i and forming an abutment member for the corresponding end of the" spring resistance F. At the inner end, each sec' tion of the spring follower B is provided with a laterally inwardly projecting arm or -llig.23",lwhich engages through the corresponding slot 2i ofv the friction shell and has shouldered engagement with the outer end wall of said slot to limit outward movement of the sectional follower B. with respect to the shell C. The flange 22 and arm 23 of each section of the spring follower B are connected by a web 21, which is disposed outwardly of thefriction shell 0., The parts are so proportioned that .the spring follower'B in its normal position has the outer end thereof projecting outwardly beyond the corresponding-end of the friction shell C.

The main spring resistance F is in the form of r a relatively heavy coil surrounding. the friction shell and having its opposite endsbearing on the flanges iil i and 2222 respectively of the spring followers A and B, thereby opposing relative. approach of these spring followers.

, .The unit is held assembled by the retainer bolt G, which has its opposite. ends anchored to the friction shell C and wedge block E respectively, the head of the bolt being seated in an inwardly projectingboss 24 on the end wall 12 of the shell C, and the nut of the. bolt being seated'in a pocket 25 provided in the outer end of the wedge block E.

In addition to holding the mechanism assembled,- the bolt G also serves to maintain the main springresistance F under a predetermined initial compression.

In the operation of my improved friction shock absorbing unit as shown in Figures 1; 2, and 3. upon relative movement of the follower-acting members it and i l toward each other, the wedge block Ewill be moved inwardly of the friction of the mechanism. This action will continue'until the rear-end of the shell C engagesthe followeracting member H, whereupon the friction shoes will be compelled to move with respect to the shell C during the remainder of the compression of the mechanism. The compression of the mechanism is limited by engagementof the follower-acting member it! with the corresponding end of the friction shell (3.; 7 v When the actuating force is reduced in release of the mechanism, the expansive action of the spring resistance F will return the j spring followers A and B to the position shown in Figure 2, thereby also restoring the friction shell C, the friction shoes DD-D, and the wedge block E to the full release position. As will be understood, outward movement of the wedge block is limited by the retainer bolt G, thereby also limiting the movement of the other parts of the shock absorbing unit.

Referring next to the embodiment of the invention illustrated'in Figure 4, the construction is identical with that illustrated in Figure 2, with the exception that the spring follower at the bottom end of .theiunit is of one piece construction and the bottom end of the friction shell is slightly modified so as to properly cooperate with this spring follower. The bottom spring follower, which is indicated by H in Figure 4;

comprises a cylindrical sleevelike portion 36 within which the bottom end of the friction shell C is telescoped. At the outer end, the sleeve section 3% is provided with a laterally projecting annular flange'3 I, which cooperates with the main follower-acting member I i in the same manner as the spring follower B referred to in connection with Figures 1; 2, and ,3. The annular flange 3! forms the springabutment means for the corresponding end of the main spring resistance F. The friction shell 0 has an annular shoulder 32 at the closed end thereof, which engages with an inwardly projecting annular flange 33 at the inner end of the sleeve portion at of the spring follower H. As will be clear, the shouldered engage ment between the spring follower H and the friction shell C determines the outward movement of the spring follower with respect to the shell in the same manner as the arms 2323 of the sections of the spring follower B hereinbefore described.

The operation of the friction shock absorbing unit illustrated in Figure 4 is the same as that hereinbefore described in connection with Figures 1, 2 and 3. V

I have herein shown and described What I now consider the preferred manner of carrying out my invention, but the same is merely illustrative and I contemplate all changes and modifications that come within the scope of the claims appended hereto. v

I claim:

1 In a friction'shock absorbing mechanism, the combination with a friction shell havingv interior friction surfaces at one end thereof; of spring followers at opposite ends'of the'shelheach of said spring followers having laterally inwardly projecting arms extending through the side wall of the shell and having shouldered engagement with the shell to limit outward movement of the spring follower with respect to'said shell; a spring re sistance surrounding the shell and. interposed between said spring followers; friction shoes within the shell having frictional engagement with the interior surfaces thereof and bearing at their inner ends on the inwardly. projecting arms of the spring follower at the corresponding end of the shell; and a block havingfwedging engagement with the shoes, said block projecting outwardly beyond the last named spring follower to directly receive the actuating force.

. 2. Ina friction shock absorbing mechanism, the combination with a frictionshell having interior friction surfaces at one end thereof, said shell having longitudinal guide openings in the. side walls thereof; of aspring follower at each-end of the shell, each spring follower having laterally inwardly projecting armsat thepinnerend there?v of projecting through the guide openings of the side walls of the shell andhaving shouldered engagement with the outer end wallsof said openings to limit outward movement of the follower with respect to the shell; a spring resistance sur-" terior friction surfaces at one end thereof, said shell having longitudinally disposed guide openrounding the shell and opposing relative movement of the spring followers toward each other; a

plurality of friction shoes within the shell '00- operating with the friction; surfaces thereof and hearing at their inner ends on the arms of the corresponding spring follower; and a wedge block having wedgingengagement with said shoes, said block projecting outwardly of the 1ast named spring follower to directly receive the actuating lforce. I l

3. In a friction shock absorbing mechanism, the

combination with afriction shell havinginterior friction surfaces at one, end thereof, said, shell having longitudinal guide openings inthe side walls thereof; of a spring follower at each end of the shell, each spring follower having laterally inwardly projecting arms at the inner end thereof I projecting through the guide openings of the side walls of the shell and having shouldered engagement with the outer end walls of said openwith respect to the shell: a spring resistance surrounding the shell andopposing relative movement of the springfollowers toward each other a plurality of friction shoes within the shellcooperating with the friction surfaces thereof and bearing at their inner ends on the arms of the corresponding spring follower; anda wedge block having wedging engagement with saidshoes, said block projecting-outwardly of the last named spring follower to directly receive the actuating force, and the spring follower at the other end of the shell projecting outwardly beyond said end of the shell to provide for relative movement of the shell and said spring follower during part of the compression strokeof the mechanism. 4. In a friction shock absorbing mechanism,

the combination with afriction shell having interior friction surfaces at one end thereof; of sectional spring followers at opposite ends of. the

shell, each section of each spring follower hflV-r ing a laterally inwardly projecting arm extending through the side wall of the shell and having shouldered engagement with the shell to limit outward movement of the spring follower with respect to said shell; ayspring resistance "surrounding the shell and interposed between the having wedging engagement with the shoes, said sectional spring followers; friction shoes within the shell having engagement with the friction surfaces thereof and bearingat their inner ends on the inwardly'projecting arms of. the correponding sectional springfollower; and a block block projecting outwardly beyond the last named spring follower to actuating force. l

5. In a1 friction shock "absorbing mechanism,

thecombination with a friction shell having indirectly receive the ings in the side walls; of a three-part sectional springfollower at each end of the shell, each part of each spring, followerhaving a laterally inwardly projecting arm at the inner end thereof extending through the guide openings of the.

side walls of the shell and having shouldered engagement with theouter end walls of said openings to limit outward movement of the same 'with respect to the shell; a spring resistance surrounding the shell and opposing relative movement of said spring followers toward each other; a plurality of friction shoes within the shell cooperating withthe friction surfaces thereof and bearing at their inner ends on the arms of the combination withfa friction casing having interior friction surfaces .at one end thereof, said casing'having recesses in the side walls between 'the ends thereof, the opposite end walls of said recessespresenting stop shoulders; of a spring follower means at each end of the casing, ex- ,terior to the casing, each of said spring follower means having inwardly projecting arms engaging in said recesses and being in shouldered V engagement with the stop shoulders of the casing to limit outward movement of said follower with and spring follower means being, relatively displaceable radially of the casing to bring them out of alignment and permit application or removal V of the spring follower means, the spring follower at the end of the shell remote from the friction surfaces projecting outwardly beyond said end *of thecasing; spring resistance means surrounding the casing and interposedbetween said spring followers and bearing on both of said spring followers; friction shoes within the casing having frictional engagement with the friction surfaces thereof, said shoes having shouldered engagerespect to the casing, said shoulders of the shell ment with the spring follower at the corresponding end of'vthe casing; and a wedge block having wedging engagement with the shoes, said wedge block projecting outwardly beyond the corresponding spring follower to receive the actuating

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